diff options
| author | Boris Kolpackov <boris@codesynthesis.com> | 2019-06-27 08:36:51 +0200 |
|---|---|---|
| committer | Boris Kolpackov <boris@codesynthesis.com> | 2019-06-27 08:36:51 +0200 |
| commit | 7161b24963dd9da4d218f92c736b77c35c328a2d (patch) | |
| tree | 7a09a34194c11000b2e530649751020414f45999 /build2 | |
| parent | d1fbcace59846d55c66e741dbc3d59e20ae3e5cf (diff) | |
Fix member-group linkup issue in previous fix
We cannot linkup prerequisite targets since we are not matching them.
Diffstat (limited to 'build2')
| -rw-r--r-- | build2/cc/link-rule.cxx | 143 | ||||
| -rw-r--r-- | build2/cc/link-rule.hxx | 2 | ||||
| -rw-r--r-- | build2/utility.hxx | 3 |
3 files changed, 89 insertions, 59 deletions
diff --git a/build2/cc/link-rule.cxx b/build2/cc/link-rule.cxx index 8146ee4..9942f48 100644 --- a/build2/cc/link-rule.cxx +++ b/build2/cc/link-rule.cxx @@ -44,39 +44,24 @@ namespace build2 } link_rule::match_result link_rule:: - match (action a, target& t, ltype lt, bool linkup) const + match (action a, + const target& t, + const target* g, + otype ot, + bool library) const { // NOTE: the target may be a group (see utility library logic below). match_result r; - otype ot (lt.type); - - // If this is a library, link-up to our group (this is the target group - // protocol which means this can be done whether we match or not). - // - // If we are called for the outer operation (see install rules), then - // use resolve_group() to delegate to inner. - // - if (linkup) - { - if (a.outer ()) - resolve_group (a, t); - else if (t.group == nullptr) - t.group = &search (t, - // @@ Why are we picking libu{} over libul{}? - // - lt.utility ? libu::static_type : lib::static_type, - t.dir, t.out, t.name); - } - // Scan prerequisites and see if we can work with what we've got. Note // that X could be C (as in language). We handle this by always checking // for X first. // // Note also that we treat bmi{} as obj{}. @@ MODHDR hbmi{}? // - for (prerequisite_member p: group_prerequisite_members (a, t)) + for (prerequisite_member p: + prerequisite_members (a, t, group_prerequisites (t, g))) { // If excluded or ad hoc, then don't factor it into our tests. // @@ -86,13 +71,13 @@ namespace build2 if (p.is_a (x_src) || (x_mod != nullptr && p.is_a (*x_mod)) || // Header-only X library (or library with C source and X header). - (lt.library () && x_header (p, false /* c_hdr */))) + (library && x_header (p, false /* c_hdr */))) { r.seen_x = r.seen_x || true; } - else if (p.is_a<c> () || + else if (p.is_a<c> () || // Header-only C library. - (lt.library () && p.is_a<h> ())) + (library && p.is_a<h> ())) { r.seen_c = r.seen_c || true; } @@ -138,53 +123,78 @@ namespace build2 // whether we match. However, it seems correct to assume that any // rule-specific search will always resolve to an existing target // if there is one. So perhaps it's time to relax this restriction - // a little? + // a little? Note that this fits particularly well with what we + // doing here since if there is no existing target, then there can + // be no prerequisites. + // + // Note, however, that we cannot linkup a prerequisite target + // member to its group since we are not matching this target. As + // result we have to do all the steps except for setting t.group + // and pass both member and group (we also cannot query t.group + // since it's racy). // + const target* pg (nullptr); const target* pt (p.search_existing ()); - // It's possible we have no group but have a member so try that. - // - if (pt == nullptr && p.is_a<libx> ()) + if (p.is_a<libx> ()) { - // We know this prerequisite member is a prerequisite since - // otherwise the above search would have returned the member - // target. + if (pt != nullptr) + { + // If this is a group then try to pick (again, if exists) a + // suitable member. If it doesn't exist, then we will only be + // considering the group's prerequisites. + // + if (const target* pm = + link_member (pt->as<libx> (), + a, + linfo {ot, lorder::a /* unused */}, + true /* existing */)) + { + pg = pt; + pt = pm; + } + } + else + { + // It's possible we have no group but have a member so try + // that. + // + const target_type& tt (ot == otype::a ? libua::static_type : + ot == otype::s ? libus::static_type : + libue::static_type); + + // We know this prerequisite member is a prerequisite since + // otherwise the above search would have returned the member + // target. + // + pt = search_existing (p.prerequisite.key (tt)); + } + } + else + { + // See if we also/instead have a group. + // + // @@ Why are we picking libu{} over libul{} (and below)? // - const target_type& tt (ot == otype::a ? libua::static_type : - ot == otype::s ? libus::static_type : - libue::static_type); + pg = search_existing (p.prerequisite.key (libu::static_type)); - pt = search_existing (p.prerequisite.key (tt)); + if (pt == nullptr) + swap (pt, pg); } if (pt != nullptr) { - // If this is a group then try to pick (again, if exists) a - // suitable member. If it doesn't exist, then we will only be - // considering the group's prerequisites. + // If we are matching a target, use the original output type + // since that would be the member that we pick. // - if (const libx* gt = pt->is_a<libx> ()) - { - linfo li {ot, lorder::a /* unused */}; - if (const target* pm = link_member (*gt, a, li, true)) - pt = pm; - } - - //@@ TMP: const_cast: try to make target in match() const. - - bool group (pt->is_a<libx> ()); - match_result lr (match (a, - const_cast<target&> (*pt), - (group - ? ltype {ot , true /* utility */} - : link_type (*pt)), - !group /* linkup */)); + otype pot (pt->is_a<libx> () ? ot : link_type (*pt).type); + match_result pr (match (a, *pt, pg, pot, true /* lib */)); // Do we need to propagate any other seen_* values? Hm, that // would in fact match with the "see-through" semantics of // utility libraries we have in other places. // - r.seen_x = lr.seen_x; + r.seen_x = pr.seen_x; } else r.seen_lib = r.seen_lib || true; // Consider as just a library. @@ -218,7 +228,26 @@ namespace build2 tracer trace (x, "link_rule::match"); ltype lt (link_type (t)); - match_result r (match (a, t, lt, lt.library ())); + + // If this is a library, link-up to our group (this is the target group + // protocol which means this can be done whether we match or not). + // + // If we are called for the outer operation (see install rules), then + // use resolve_group() to delegate to inner. + // + if (lt.library ()) + { + if (a.outer ()) + resolve_group (a, t); + else if (t.group == nullptr) + t.group = &search (t, + // @@ Why are we picking libu{} over libul{} (and above)? + // + lt.utility ? libu::static_type : lib::static_type, + t.dir, t.out, t.name); + } + + match_result r (match (a, t, t.group, lt.type, lt.library ())); // If this is some other c-common header/source (say C++ in a C rule), // then we shouldn't try to handle that (it may need to be compiled, diff --git a/build2/cc/link-rule.hxx b/build2/cc/link-rule.hxx index 2df22cf..14a8570 100644 --- a/build2/cc/link-rule.hxx +++ b/build2/cc/link-rule.hxx @@ -34,7 +34,7 @@ namespace build2 }; match_result - match (action, target&, ltype, bool) const; + match (action, const target&, const target*, otype, bool) const; virtual bool match (action, target&, const string&) const override; diff --git a/build2/utility.hxx b/build2/utility.hxx index 3843528..0aa5537 100644 --- a/build2/utility.hxx +++ b/build2/utility.hxx @@ -8,7 +8,7 @@ #include <tuple> // make_tuple() #include <memory> // make_shared() #include <string> // to_string() -#include <utility> // move(), forward(), declval(), make_pair() +#include <utility> // move(), forward(), declval(), make_pair(), swap() #include <cassert> // assert() #include <iterator> // make_move_iterator() #include <algorithm> // * @@ -37,6 +37,7 @@ namespace build2 { using std::move; + using std::swap; using std::forward; using std::declval; |